JP2018154941A - Clothing product - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a clothing product using a fabric including cellulose fibers capable of being stored compactly in a state where wrinkles are hardly formed.SOLUTION: The clothing product having a front body part, a back body part, an upper front placket part, a lower front placket part, a sleeve part and a collar part is provided which includes a fabric woven using cellulosic fibers with 20-80 British yarn number and having a warp density of 50-250/2.54 cm and a weft density of 50-200/2.54 cm and having cellulosic fibers of 20 wt% or more as a body fabric and a thickness of the body fabric is 0.15-0.31 mm and a thickness of the upper front placket part is 0.35-0.80 mm.SELECTED DRAWING: Figure 1

Description

  The present invention relates to clothing products.

  Appropriate tension and stiffness are required for shirt products such as dress shirts and blouses. Further, in recent years, it has further wrinkle resistance, shrinkage resistance and the like, and is characterized by less wrinkling due to washing and drying, and can be worn without ironing (also called “wash and wear property (W & W property)”). ).

  In contrast, a woven fabric containing cellulose fibers generally tends to retain wrinkles generated by washing and has low W & W properties. Therefore, a method for improving the W & W property by chemically cross-linking cellulose molecules with a cellulose cross-linking agent is used. Furthermore, a shirt product having high wrinkle resistance in which deformation of the stitched portion due to wearing and / or washing is suppressed by fixing the stitched portion using an adhesive interlining or the like is provided. However, it is difficult to store such a shirt product in a compact manner in a state where it is difficult to wrinkle when stored in a bag or the like for carrying.

  Regarding the storage of clothing products, it has been proposed to store them in packaging containers (for example, Patent Document 1 and Patent Document 2). However, in the method of Patent Document 1, the product is easily wrinkled and it is difficult to store it in a compact manner. Moreover, the method of patent document 2 is intended for the knitted fabric product which is hard to wrinkle, and it is difficult to store a textile product compactly in the state which is hard to wrinkle.

Utility model registration No. 3096778 JP 2001-303301 A

  An object of the present invention is to provide a garment product using a woven fabric containing cellulose fibers, which can be stored compactly in a state where it is difficult to wrinkle.

According to the present invention, there is provided a clothing product having a front body part, a back body part, an upper front part, a lower front part, a sleeve part and a collar part. The garment product is woven using cellulosic fibers having an English cotton count of 20 to 80, and has a warp density of 50 to 250 / 2.54 cm and a weft density of 50 to 200/2. 54 cm, including a woven fabric containing 20% by mass or more of cellulose fibers as a body fabric, the thickness of the body fabric is 0.15 mm to 0.31 mm, and the thickness of the upper placket is 0.35 mm to 0.3 mm. 80 mm.
In one embodiment, the hem of the back body part is 5 mm to 80 mm longer than the skirt of the front body part.
In one embodiment, both the upper placket and the lower placket are back plackets.
In one embodiment, the difference between the thickness of the body cloth and the thickness of the upper placket is 0.60 mm or less.
In one embodiment, the said cellulosic fiber contains 20 mass% or more of cotton.
In one embodiment, the cellulosic fiber is crosslinked with a crosslinking agent.
In one embodiment, the clothing product is a dress shirt, blouse, pajamas or uniform.
According to another aspect of the present invention, a packaged clothing product is provided. The packaged clothing product includes a storage container and the clothing product stored in a folded state in the storage container.
In one embodiment, the storage container is a storage bag having a polygonal bottom surface portion having a circular shape or an inscribed circle, an upper surface portion that may be opened, and a side surface portion, and the circle or the inscribed circle. The diameter of the storage bag is 60 mm to 90 mm, and the height of the storage bag is 190 mm to 250 mm.
In one embodiment, the storage container is a storage box having a polygonal bottom surface portion having a circular shape or an inscribed circle, an upper surface portion which may be opened, and a side surface portion, and the circle or the inscribed circle. According to still another aspect of the present invention, there is provided a method for producing a clothing product. The diameter of the storage box is 60 mm to 75 mm, and the height of the storage box is 190 mm to 220 mm. The production method is woven using cellulosic fibers having an English cotton count of 20 to 80. The warp density is 50 to 250 / 2.54 cm and the weft density is 50 to 200/2. A method for producing a clothing product having a front body part, a rear body part, an upper front part, a lower front part, a sleeve part and a collar part by sewing a woven fabric that is 54 cm and contains 20% by mass or more of cellulose fibers. The thickness of the woven fabric is 0.15 mm to 0.31 mm, and the thickness of the upper placket is 0.35 mm to 0.80 mm.

  According to the present invention, it is a clothing product using a woven fabric containing cellulose fibers by using a specific woven fabric and setting the thickness of the body part and the placket part within a predetermined range, and is compact while suppressing wrinkling. Apparel products that can be stored in are provided. That is, according to the clothing product of the present invention, it is possible to achieve both compact storage properties and aesthetics in wearing after storage.

1 is a schematic front view of a clothing product according to one embodiment of the present invention. It is a schematic rear view of the clothing product shown in FIG. FIG. 6 is a schematic front view of a clothing product according to another embodiment of the present invention. FIG. 4 is a schematic rear view of the clothing product shown in FIG. 3. It is the schematic which shows an example of the shape of the bottom face part of a storage container. It is the schematic of an example of a storage bag. It is the schematic which shows the closed state of the storage bag shown in FIG. It is the schematic explaining an example of the folding method of the clothing product accommodated in a storage container. It is the schematic explaining another example of the folding method of the clothing product accommodated in a storage container. It is a schematic top view of the shirt product folded by the conventional method. It is a figure explaining the difference of the length of a front body part, and the length of a back front body part. It is a figure explaining the length of a cuff part.

  Hereinafter, although embodiment of this invention is described, this invention is not limited to these embodiment. In the present specification, the front side of the clothing product is referred to as a front part, and the back side is referred to as a rear part.

A. Clothing product A-1. 1 is a schematic front view of a clothing product according to an embodiment of the present invention, and FIG. 2 is a schematic rear view thereof. The clothing product 100a shown in FIGS. 1 and 2 has a front body part 10, a rear body part 20, an upper front part 30, a lower front part 40, a sleeve part 50, a collar part 60, and a pocket part 70. FIG. 3 is a schematic front view of a clothing product according to another embodiment of the present invention, and FIG. 4 is a schematic rear view thereof. The clothing product 100b shown in FIGS. 3 and 4 includes a yoke part in addition to the front body part 10, the back body part 20, the upper front part 30, the lower front part 40, the sleeve part 50, the collar part 60 and the pocket part 70. 80. Here, the upper placket means a portion that becomes a front side when a clothing product is worn and a button is attached, and the lower placket means a portion that becomes a back side (hereinafter referred to as “skin side”).

  Each of the constituent parts of the clothing products 100a and 100b can be formed by stitching together fabric pieces that have been molded into a predetermined shape. Further, each of the upper placket portion and the lower placket portion may be formed continuously with the front body portion by folding back and sewing the front end of the fabric for the front body portion. An interlining may be used as necessary from the viewpoint of aesthetics, shape retention and the like.

  The apparel product of the present invention includes a predetermined woven fabric having a thickness of 0.15 mm to 0.31 mm as a body cloth. The thickness of the body cloth is preferably 0.18 mm to 0.31 mm, more preferably 0.18 mm to 0.28 mm. When the thickness of the body cloth is 0.15 mm or more, it can be worn without worrying about clinging to the body or silhouette while maintaining practically sufficient strength. On the other hand, when the thickness is 0.31 mm or less, the clothing product can be stored in a compact manner, and wrinkles and warping of the fabric are suppressed even when the clothing product is spread and worn. The body fabric means a fabric that mainly constitutes a clothing product, for example, 50 mass% or more, 80 mass% or more, 90 mass% or more, 95 mass% or more, or 100 mass% of the entire fabric constituting the clothing product. %. In the apparel product of the present invention, for example, the cloth constituting the front body part and the back body part can be used as the body cloth, preferably the cloth constituting the front body part, the back body part and the sleeve part is the body cloth. . The woven fabric used as the fabric is described in detail in section A-2.

  The front body part and the back body part may be a so-called round tail having a semicircular skirt, or may be a so-called square tail having a right-angle shape (the illustrated example is a round tail). The hem of the back body part is preferably longer than the skirt of the front body part. The hem of the back body part is longer than the hem of the front body part, so when wearing the skirt of the body part in the bottoms (pants, skirt, etc.), without impairing the aesthetics of the silhouette etc. It is possible to suitably suppress the skirt from rising from the back side. Furthermore, in the present invention, the skirt of the back body part is preferably 5 mm to 80 mm, more preferably 10 mm to 65 mm, and even more preferably 15 mm to 45 mm longer than the skirt of the front body part, so Can also improve. The difference in the length of the hem is a value measured in a state where the clothing product is spread in a flat shape so that the centers of the left and right sleeves are located on the crease.

  In the clothing product 100a, the front body part 10 and the back body part 20 are directly stitched together to form the shoulder stitching part A. By directly sewing the front body part and the back body part, the amount of fabric used and the number of stitching parts are reduced compared to the case where the yoke part is provided, so that the clothing product can be folded more compactly. In addition, since the stretch rate and stretch recovery rate in the seam direction of the stitched portion are increased and the movement around the shoulder when worn is smooth, an excellent wearing feeling can be realized.

  The shoulder suture is typically formed at the front of the garment product. The shoulder suture can be formed to extend in any suitable direction. For example, the shoulder suture portion may be formed so as to extend along the shoulder ridgeline, or may be formed so as to extend in the lateral direction of the clothing product (in the illustrated example, the shoulder suture portion A is along the shoulder ridgeline). It is formed to extend.) By forming the shoulder stitches so as to extend in these directions, the aesthetics of the clothing product are improved.

  In the clothing product 100b, the front body portion 10 and the yoke portion 80 are stitched together to form a shoulder stitching portion A. Further, the yoke part 80 and the back body part 20 are stitched together to form a yoke rear stitch part B. The yoke rear stitching portion B is formed to extend in the horizontal direction of the clothing product. By providing the yoke portion, it is possible to suppress damage to the clothing product during wearing or washing.

  Each of the upper placket portion and the lower placket portion may have any appropriate configuration depending on the application or the like. Typical configurations include front placket, back placket, specific wing placket, and the like. In the clothing product 100a, the upper placket 30 and the lower placket 40 are both back plackets. Since the front placket is formed by folding the front end of the fabric for the front body part toward the skin side, the upper placket part 30 and the front body part 10 are flush with each other on the front side. Therefore, even if it wears the clothing product 100a folded small, the unevenness | corrugation of the upper placket part 30 is not conspicuous, and it is preferable from the point of aesthetics. On the other hand, in the clothing product 100b, the upper placket 30 is a front placket and the lower placket 40 is a back placket.

  The thickness of the upper placket is 0.35 mm to 0.80 mm, preferably 0.40 mm to 0.80 mm, and more preferably 0.40 mm to 0.78 mm. When the thickness is 0.35 mm or more, moderate shape retention can be obtained. As a result, even if a garment product folded in a small size is used for wearing, unevenness is unlikely to occur in the upper placket, so that aesthetics can be improved. On the other hand, when the thickness is 0.80 mm or less, the clothing product can be folded and stored small. Moreover, it can prevent that shape retention property becomes strong too much and a fold mark and a winding mark remain. The upper placket may have a different thickness depending on the use range of the interlining. Therefore, when the interlining is used only for a part of the upper placket, the thickness of the upper placket is weighted according to the ratio of the use range of the interlining as described in the examples described later. It shall be obtained as a weighted average.

  When the upper placket is a front placket, the difference between the thickness of the upper placket and the thickness of the body cloth is preferably 0.55 mm or less, and more preferably 0.50 mm or less. Further, when the upper placket is a back placket, the difference between the thickness of the upper placket and the thickness of the cloth is preferably 0.60 mm or less, and more preferably 0.53 mm or less. By making the difference between the thickness of the body fabric and the thickness of the upper placket not more than a predetermined value, the crease or winding mark of the body fabric near the upper placket is less noticeable when the clothing product is taken out from the storage container. Aesthetics are maintained. When the upper placket is a back placket, it is relatively easy to maintain aesthetics even if the difference between the thickness of the upper placket and the thickness of the body cloth is large. This is considered to be because, for example, the fold marks and the winding marks are not conspicuous because the upper front part and the front body part of the back front part are continuously formed flush with each other.

  The thickness of the upper placket is the thickness of the body cloth, the selection of the front placket, back placket, etc., the thickness of the interlining, the range of use of the interlining, and the degree of folding of the cloth at the sewing location (for example, the placket and the front body) It can be adjusted by appropriately selecting the number of times the placket fabric is weaved when sewing. For example, the thickness of the upper placket can be increased by using an interlining over part or the entire length of the upper placket. If the clothing product is a shirt, use the interlining from the uppermost part of the upper placket (ie, the stitched part of the upper placket and the collar base) to the lower part of the third buttonhole or upper part of the fourth buttonhole Then, the shape retaining property of the chest can be enhanced while suppressing an increase in the thickness of the upper placket.

  The sleeve may be a long sleeve or a short sleeve. In the illustrated example, the sleeve portion 50 is a long sleeve and has a cuff portion 52. The length of the cuff is, for example, 20 mm to 80 mm, preferably 30 mm to 70 mm, and more preferably 50 mm to 70 mm. If the length of the cuff is within this range, it can be stored compactly. In addition, buttons, button holes and the like can be easily arranged.

  The collar portion 60 includes a collar blade 61 and a collar base 62. In the clothing product 100a, the collar portion 60 is a button-down specification. By making the collar part into a button-down specification, when the folded clothing product is taken out of the storage container, it is possible to prevent the bow of the collar feathers from being warped and to improve the aesthetics when worn.

  The pocket portion is an arbitrary component and can be omitted depending on the application.

  The interlining can usually be used for upper plackets, cuffs, collars (cradles and slats), and the like. By using the interlining, there is an effect of giving tension and stiffness and improving shape retention. Examples of the interlining include a plush core, a temporary adhesive core, and a permanent adhesive core. The thickness of the interlining can be, for example, 0.30 mm or less, preferably 0.27 mm or less, more preferably 0.05 mm to 0.25 mm, from the viewpoints of storage properties and aesthetics when worn.

  The clothing product of the present invention is a front-opening or half-front-opening clothing product such as a shirt, a pajamas, or a uniform. Examples of shirts include dress shirts, blouses, and casual shirts. Examples of dress shirts include shirts and cutter shirts.

A-2. Woven Fabric The fabric is a woven fabric woven using cellulosic fibers having an English cotton count of 20-80. The woven fabric may contain fibers other than the cellulosic fibers as a woven yarn (typically, weft yarn) as necessary.

  As described above, the thickness of the woven fabric is 0.15 mm to 0.31 mm, preferably 0.18 mm to 0.31 mm, and more preferably 0.18 mm to 0.28 mm. The thickness of the woven fabric can be set to a desired value by adjusting the fineness of the woven yarn, the number of twists, the woven density, the woven structure, and the like.

  The tear strength of the woven fabric is, for example, 200 cN or more, preferably higher than 500 cN, more preferably higher than 600 cN. When the tear strength is within the above range, the clothing product is less likely to be torn or torn during use or washing.

  As the cellulosic fiber, any appropriate fiber (woven yarn) containing cellulose fiber can be used. Cellulosic fibers may be fibers containing only cellulose fibers, or may be fibers obtained by mixing cellulose fibers with other fibers. In this case, the content ratio of the cellulose fiber in the cellulosic fiber is, for example, 20% by mass or more, preferably 30% by mass or more, more preferably 40% by mass or more, and further preferably 50% by mass or more. Content of this cellulose fiber is a value calculated | required based on JISL1030-2.

  When the said cellulose fiber contains only a cellulose fiber, the clothing product excellent in a feeling of wear and a texture can be obtained. Moreover, the wrinkle prevention effect by a crosslinking process can be acquired more suitably. When the cellulosic fiber is a fiber in which cellulose fiber and other fibers are mixed, the quick drying property, elongation rate, and elongation recovery rate of the fabric can be easily adjusted to the preferred range, and as a result, wrinkle resistance such as W & W properties Thus, a clothing product excellent in fit and wearing feeling can be easily obtained.

  Arbitrary appropriate cellulose fibers can be employ | adopted as said cellulose fiber. Examples of cellulose fibers include natural cellulose fibers, regenerated cellulose fibers, semi-regenerated cellulose fibers, and combinations thereof. The natural cellulose fiber may be a vegetable cellulose fiber or an animal cellulose fiber. Examples of natural cellulose fibers include fibers derived from cotton, hemp, bamboo, ridges, honey, bananas, and encapsulates. Examples of the cotton include short fiber cotton, medium fiber cotton, long fiber cotton, super long cotton, and super / super long cotton. Examples of the regenerated cellulose fiber include rayon fibers (for example, viscose rayon and copper ammonia rayon). Examples of semi-regenerated cellulose fibers include acetate fibers (for example, bisacetate and triacetate). The cellulose fibers are preferably cotton, hemp, rayon fibers and combinations thereof. By using cotton, hemp, rayon fiber and a combination thereof as the cellulose fiber, a woven fabric excellent in water absorption, texture and physical properties can be obtained.

  As the other fiber that can be mixed with the cellulose fiber, any appropriate fiber can be adopted depending on the purpose. Specific examples include polyester fiber, polyurethane fiber or polyamide fiber, and polyester fiber or polyurethane fiber is preferred.

  As the polyester fiber, polytrimethylene terephthalate (PTT), polyethylene terephthalate and a combination thereof can be preferably used. By using the polyester fiber, it is possible to easily obtain a clothing product excellent in comfort such as quick drying and wrinkle resistance such as W & W. Content of the polyester fiber in a cellulosic fiber is 10 mass%-70 mass%, for example.

  As the polyurethane fiber, a polyurethane elastic fiber can be preferably used. By using the polyurethane fiber, the stretch rate and stretch recovery rate of the woven fabric can be easily adjusted to a preferable range. As a result, both better wrinkle resistance and better wearing feeling can be achieved. Content of the polyurethane fiber in a cellulosic fiber is 0.1 mass%-40 mass%, for example.

  The cellulosic fiber may be in any suitable form depending on the purpose. Specific examples include raw yarn (unprocessed yarn), false twisted yarn, and dyed yarn. Moreover, forms, such as a single yarn, a twisted yarn, and a covering yarn, are mentioned. When the cellulosic fiber includes two or more kinds of fibers, the two or more kinds of fibers may be in the form of, for example, a blended yarn or a blended yarn. These forms may be adopted alone or in combination of two or more.

  The fineness of the cellulosic fibers is 20 to 80 in English cotton count. For example, when the clothing product is a dress shirt, the fineness is preferably 20 to 70. For example, when the clothing product is a blouse, the fineness is preferably 30 to 70. As the yarn having a fineness of 40, for example, a double yarn composed of a 40th single yarn and an 80th single yarn can be used. When the fineness is 20 or more, it is easy to obtain a soft woven fabric. When the fineness is 80 or less, it becomes easy to obtain a woven fabric having sufficient tensile strength, tear strength, etc., and the manufacturing cost can be reduced.

  Examples of the fibers other than the cellulose fibers that can be included in the woven fabric as a woven yarn include polyester fibers, polyurethane fibers, and polyamide fibers. Preferably, in the cellulose fibers, polyester fibers and polyurethanes that can be mixed with cellulose fibers. The fiber similar to a fiber is mentioned. These fibers can be used alone or in combination of two or more. As the form of the fiber, the same explanation as that for the cellulosic fiber can be applied.

  The polyester fiber has any suitable fineness that can be used as a woven yarn. The fineness is, for example, 33 dtex to 330 dtex. When the fineness is 330 dtex or less, the thickness of the woven fabric is in an appropriate range, so that the wearing feeling is improved. On the other hand, when the fineness is 33 dtex or more, problems such as breakage of the fiber during processing and use can be avoided.

  The polyurethane fiber has any suitable fineness that can be used as a woven yarn. The fineness is, for example, 22 dtex to 154 dtex. When the fineness is 154 dtex or less, the thickness of the woven fabric is in an appropriate range, and it becomes difficult to become rubber-like, so the wearing feeling is improved. On the other hand, when the fineness is 22 dtex or more, problems such as breakage of the fibers during processing and during use can be avoided.

  The content ratio of the cellulose fiber in the woven fabric is 20% by mass or more, preferably 30% by mass or more, more preferably 40% by mass, and further preferably 50% by mass to 100% by mass. By containing 20% by mass or more of cellulose fiber, a clothing product having excellent hygroscopicity, touch and texture can be obtained.

  When the said woven fabric contains the said polyester fiber in addition to a cellulose fiber, the content rate of the polyester fiber in a woven fabric is 5 mass%-80 mass%, for example. When the content ratio is 80% by mass or less, hygroscopicity and wearing feeling are improved. On the other hand, when the content is 5% by mass or more, for example, quick drying properties can be improved and excellent wrinkle resistance can be realized.

  When the said woven fabric contains the said polyurethane fiber in addition to a cellulose fiber, the content rate of the polyurethane fiber in a woven fabric is 0.1 mass-40 mass%, for example. When the content ratio is 40% by mass or less, it becomes difficult to become rubber-like, so that the wearing feeling is improved. When content is 0.1 mass% or more, for example, the fall of an elongation rate and an expansion | restoration recovery rate is suppressed, and more excellent wrinkle resistance and a more comfortable wearing feeling can be made compatible.

  The woven fabric has a warp density of 50 to 250 / 2.54 cm (inch) and a weft density of 50 to 200 / 2.54 cm. The warp density is preferably 50 to 195 / 2.54 cm. The weft density is preferably 50 to 150 / 2.54 cm. The warp density and the weft density may be the same as or different from each other. When the weave density is equal to or higher than a predetermined value, the strength of the fabric can be improved. Moreover, the clothing product obtained becomes difficult to see through. On the other hand, when the weave density is a predetermined value or less, a suitable texture can be obtained and excessive tension can be eliminated. Moreover, while being able to store clothing products in a compact manner, it is possible to maintain aesthetics by suppressing folding wrinkles when removed from a predetermined storage container and worn. In addition, the woven density of the woven fabric is a woven density of the woven fabric in a clothing product obtained through sewing or the like, and may be different from the woven density at the time of weaving.

  Any appropriate woven structure can be adopted as the woven structure of the woven fabric. Examples of the woven structure include plain weave, satin weave (satin), twill weave, dobby weave, and combinations thereof. According to these woven structures, clothing products having various designs can be obtained.

  Examples of the plain weave structure include broad and loan. Broad is preferable in that the texture is dense and glossy. Loans are preferred because they have a soft hand.

  According to satin weave, it is rich in luster and has a smooth and smooth feel. By making the weave density coarse, it is possible to obtain lightweight and soft clothing products of various designs.

  According to the twill weave, it is rich in gloss and can achieve a good elongation rate and elongation recovery rate.

  The fabric can be woven using any suitable loom.

  The woven fabric may be subjected to a crosslinking treatment. Since the cellulosic fibers are cross-linked by the cross-linking treatment, it is possible to realize a garment product with improved wrinkle resistance such as W & W properties. The cross-linking treatment may be performed by attaching a cross-linking treatment solution containing a cross-linking agent or the like to the fabric to be treated and then performing a heat treatment. The heat treatment may be performed while applying tension to the woven fabric in a range where the predetermined woven density is obtained. The crosslinker can be any suitable compound that reacts with the hydroxyl groups of cellulose to form crosslinks between cellulosic fibers. For details of the crosslinking treatment, for example, the description of JP-A-2006-169457 can be referred to.

  The fabric may be subjected to other treatments (for example, desizing, refining, bleaching, washing, and softening) as necessary.

A-3. Manufacturing method of garment product The garment product of the present invention, for example, molds and cuts the woven fabric based on a pattern, and each member obtained thereby (for example, front body part, back body part, sleeve part, collar part) The upper placket, the lower placket, and optionally the yoke and pocket) are obtained by a manufacturing method including a step (stitching step) for sewing together by any appropriate method. In the stitching step, from the viewpoint of improving the feeling of wearing, preferably, the woven fabric has a weft direction of a front body part, a back body part, a sleeve part, a pocket part, an upper front part, a lower front part, and as necessary. And sew so that it is in the lateral direction of the yoke. The above manufacturing method typically further includes a step of providing a button hole at a predetermined position of the upper placket and a step of fixing the button at a predetermined position of the lower placket.

  The suturing in the suturing step can be performed by machine sewing or hand-sewing using a sewing machine, and is preferably performed using a sewing machine. Further, any appropriate seam can be selected as the seam in the stitching according to the purpose. Preferred stitches include main stitch, chain stitch (for example, chain stitch), split stitch, overlock stitch, interlock stitch, winding stitch, flat stitch, down stitch and the like. These seams can be used alone or in combination of two or more. For example, the thickness can be reduced by using interlock stitches on portions where the fabric overlaps frequently (sleeves, side portions under the sleeves, arm holes, etc.). As a result, the clothing product can be stored compactly without difficulty.

  In the suturing step, the thickness of the upper placket is set within a range of 0.35 mm to 0.80 mm. The thickness of the upper placket is, for example, the thickness of the body cloth, the selection of the configuration of the front placket, the back placket, the thickness of the interlining, the range of use of the interlining, the degree of folding of the cloth at the sewing location (for example, the placket and the front It is possible to adjust to a desired value by appropriately selecting the number of times the placket fabric is woven when stitching the cuff.

B. Packaged Apparel Product The packaged apparel product of the present invention includes a storage container and the apparel product described in Item A stored in a folded state in the storage container.

B-1. Storage container As the storage container, a bag or a box that can be stored in a state where the clothing product is folded may be used. Here, the bag means a container that is formed of a relatively flexible material and cannot retain its shape by itself. Moreover, a box means the container which is formed with a comparatively hard material and can hold | maintain a shape itself.

  In one embodiment, the storage container may be opened with a cylindrical bottom surface having a circular bottom surface portion and an open top surface portion and a side surface portion or a polygonal bottom surface portion having an inscribed circle. It is a polygonal column shape having a good upper surface portion and side surface portion. Since the storage container has such a shape, when the garment product is stored, the gap between the storage container and the garment product is reduced, so that the storage container can be stored compactly. In this embodiment, from the viewpoint of improving the stability when carrying, loading, displaying, etc., a storage container storing a clothing product, it is preferable that all the side portions rise vertically from the bottom portion. However, as long as the effects of the present invention can be obtained, the storage container may have a part or all of the side surface portions rising obliquely from the bottom surface portion. In this case, from the viewpoint of stability, the angle formed between the side surface portion and the bottom surface portion is preferably 80 ° to 100 °. In addition, when a storage container is a storage bag, the three-dimensional shape based on a development view or a pattern should just be the said shape.

  Examples of the polygonal shape include a triangular to decagonal polygonal shape. It is considered that the higher the filling rate of the cylinder based on the inscribed circle (volume of the inscribed cylinder / volume of the container × 100) is excellent in the storage property. From the viewpoint of storage properties, transportation, and stability during stacking, a quadrangular to octagonal polygonal shape is preferable, and a quadrangular, hexagonal, or octagonal shape is more preferable. As long as the effect of the present invention is obtained, the polygonal shape may be a regular polygon or a non-regular polygon as shown in FIG.

  When the storage container is a storage box and the bottom surface has a circular shape or a polygonal shape having an inscribed circle, the diameter of the circle or the inscribed circle is typically 60 mm to 75 mm, preferably 62 mm to 75 mm. The height of the storage box is typically 190 mm to 220 mm, preferably 200 mm to 210 mm.

  Examples of the material for forming the storage box include resin, metal, glass, and cardboard. Among these, from the viewpoints of processability, handleability, transparency and the like, a resin is preferable, and the gloss and gloss of the surface are excellent, and printability is high, and thus polyvinyl chloride is particularly preferably used. Polypropylene, polyethylene terephthalate, polyvinyl alcohol and the like can also be preferably used. Since these resins are colorless and transparent, it is possible to recognize the color pattern of the stored clothing product from the outside.

  The thickness of the storage box is, for example, 0.20 mm to 0.60 mm, preferably 0.25 mm to 0.45 mm, and more preferably 0.30 mm to 0.40 mm. When the thickness is within this range, the workability when assembling the box is excellent, and a practically sufficient impact resistance can be obtained.

  When the storage container is a storage bag and the bottom surface has a circular shape or a polygonal shape having an inscribed circle, the diameter of the circle or the inscribed circle is typically 60 mm to 90 mm, preferably 60 mm to 80 mm, more preferably 60 mm to 75 mm. The height of the storage bag is typically 190 mm to 250 mm, preferably 210 mm to 245 mm, and more preferably 225 mm to 240 mm. If the diameter or height is larger than this range, the clothing product may spread within the storage bag.

  Examples of the material for forming the storage bag include cloth, paper, and resin sheet. In one embodiment, the storage bag is composed of the same fabric as the clothing fabric of the clothing product stored therein. According to the embodiment, it is possible to check the color pattern and the touch without taking out the clothing product from the storage bag.

  6 and 7 are schematic views showing an example of a storage bag (FIG. 6 shows an open state and FIG. 7 shows a closed state). The storage bag 200 has a cylindrical shape with an open top surface. A cutout 210 is provided on the side surface of the storage bag 200 for easily taking in and out the clothing product. The notch 210 has a predetermined length from the top surface to the bottom surface, and is provided so that the opposite end portions overlap with each other with a predetermined width. An engaging member (a plurality of hook-and-loop fasteners 210a and 210a 'in the illustrated example) is provided at the end, and the opening and closing of the notch 210 is controlled by the engaging member. Unlike the illustrated example, the engaging member may be a wire fastener, a button, or the like.

B-2. Folding method of clothing product The clothing product is stored in the storage container in a folded state. As a method for folding clothing products, the clothing products can be sized to be stored in a container, and the wrinkles and unevenness of the upper placket are not noticeable when taken out from the container and used for wearing. Is preferred.

  An example of a preferred folding method (hereinafter sometimes referred to as “folding method A”) will be described below with reference to FIG. First, a buttoned clothing product (in the illustrated example, a dress shirt) is spread on a flat table so that the center of the left and right sleeves lies on the crease (a). Next, folding (b) is performed so that the seam of the lower body suture part of the front body part and the rear body part of the one (right arm side in the illustrated example) is over the upper placket, preferably over the button. Fold it so that the crease (sleeve centerline) at the top of the sleeve matches the crease (c). Subsequently, the body part and the sleeve part on the other side (left arm side in the illustrated example) are similarly folded (d). Next, the hems of the collar part and the body part are folded forward and folded (e). At this time, it is preferable to fold so that the collar part and the hem of the body part are opposed to each other and the opposed position is the center in the vertical direction of the shirt. It is because it can be folded small while suppressing wrinkles. Next, the opposite part is set as a crease, folded again toward the front side to form a quadrangle, and the short sides thereof are arranged in the vertical direction (f). Next, the winding is performed from one end (left end in the illustrated example) to the center (g), and then the remaining half is wound from the other end (right end in the illustrated example) to the center (h). The state after winding is shown in (i).

  In addition, another example of a preferred folding method (hereinafter sometimes referred to as “folding method B”) will be described with reference to FIG. 9, (a) to (d) are the same as (a) to (d) in FIG. Subsequently, the clothing product is wound up while rotating the collar stand from the collar portion toward the hem of the body portion as a winding core (e, f). The state after winding is shown in (g).

  According to the folding method A or B, a clothing product folded into a substantially cylindrical shape while suppressing wrinkling is obtained (FIGS. 8 (i) and 9 (g)). The folding method A is advantageous in that it hardly causes unevenness in the horizontal direction of the clothing product and suppresses a decrease in aesthetics when worn. In addition, when referring to the dimensions of the clothing product in the folded state, the clothing product is regarded as a cylinder, the maximum diameter of the bottom surface and the top surface is the diameter of the cylinder, and the distance between the bottom surface and the top surface is the height of the cylinder. Say it.

  By storing the clothing product folded as described above in a storage container, the packaged clothing product of the present invention can be obtained. If necessary, the folded clothing product may be stored in a storage bag, and then the storage bag may be stored in a storage box.

  According to the packaged clothing product of the present invention, the clothing product is stored compactly in the storage container in a state in which wrinkles are suppressed. Therefore, the storage space can be greatly saved while maintaining the aesthetics of wearing after storage as compared with the conventional flat folding method as shown in FIG.

  EXAMPLES Hereinafter, although an Example demonstrates this invention concretely, this invention is not limited by these Examples.

The measurement methods and evaluation methods used in the examples are as follows.
(1) Thickness of body cloth and upper placket JIS L-1096 thickness Thickness of the body cloth and upper placket was measured according to the A method. Specifically, using a thickness measuring instrument (manufactured by Niigata Seiki Co., Ltd., Dial Cygness Gauge DS-1211), under a certain time (10 seconds) and a certain pressure (23.5 kPa), about five different samples. The thickness was measured and the average value was used.
Regarding the thickness of the upper placket, when an interlining is used over the entire length of the upper placket, the thickness is measured at five different locations and the average value is adopted. When interlining is used for a part of the upper placket, the average value (Amm) of the thickness of five places where the interlining is used and the thickness of five places where no interlining is used The average value (Bmm) is obtained, and the total length (Ccm) of the upper placket and the length (Dcm) of the portion using the interlining are measured and calculated from the equation (1).
Average thickness of upper placket (mm) = {A × D + B × (C−D)} / C (1)
For the measurement of the total length of the upper placket and the length of the portion using the interlining, a fiber tape measure specified in JIS B 7522 or a fiber tape measure having accuracy equivalent to or better than these (for example, Muratec KDS Corporation) Kakulong 10) was used. Moreover, the measurement location of the upper placket part draws a straight line between a buttonhole part and a buttonhole part, and measures the thickness on the line.

(2) Difference in length between back body part and front body part JIS L-1096 Length According to the A method, the difference in length between the back body part and the front body part was measured. Specifically, spread the shirt on a flat table in a wrinkled or tensioned state, and set the distance from the bottom of the shirt's front body (front) to the bottom point of the back body. It was measured as a difference in length (length represented by “L” in FIG. 11). The measuring jig used in the above (1) was used.

(3) Cuff Length JIS L-1096 Length Cuff length was measured according to the A method. Specifically, the shirt is placed on a flat table, spread with wrinkles and tension, and a straight line perpendicular to the perforation stitching the sleeve fabric and the cuff as shown in FIG. The distance between the ends of the cuff part was measured above. The measuring jig used in the above (1) was used.

(4) Measurement of Tear Strength of Textile Measured according to JIS L-1096 D method (penjuram method). Specifically, three or more test pieces each having a length of 10 cm and a latitude of 6.3 cm were collected. Using an Elmendorf-type tear strength tester, a 2 cm cut was made with a sharp blade at a right angle to the center of the long side of the test piece at the center of both grips, and the remaining 4.3 cm of warp was The load (cN) indicated when torn was measured. The average value was defined as the tear strength in the weft direction of the fabric. The above measuring method is a method of measuring the tear strength in the weft direction, but the tear strength in the warp direction can be measured in the same manner except that the long side of the test piece is in the weft direction.

(5) Measurement of elongation rate JIS L-1096 elongation rate It implemented according to the constant load method. Specifically, the dimension of the sample was 2.5 cm in width, the grasping length was 10 cm, and an 8 cm straight line (meaning 8 cm between marks) was drawn in the length direction in order to determine the elongation in the length direction of the sample. After that, the sample was stretched for 60 seconds at a constant load of 14.7 N (the sample was stretched at a stretching speed of 30 cm / min and kept at a stage where a load of 14.7 N was applied), and the length of the straight line at that time was measured and calculated. The elongation percentage (%) (increment of straight line length (cm) / 8 cm × 100) was determined. The temperature and humidity at the time of measuring the elongation rate were set to a temperature of 23 ° C. and a humidity of 70 RH%.

(6) W & W property evaluation test of woven fabric JIS L-1096 Wrinkles after washing Washing was performed according to the A method. After dehydration, tumble drying was performed. The number of test points was 1. The W & W property was judged as an average value of three judges as compared with a replica (specified in AATCC TEST METHOD 124). The evaluation standard was evaluated in increments of 0.1. For example, in the case of grades 3.0 to 3.5, the grades were 3.1, 3.2, 3.3, 3.4, and 3.5. In general, if the W & W property is 2.0 or higher, the wrinkle of the clothing product is reduced, if it is 3.0 or higher, the wrinkle is less noticeable, and if it is 3.2 or higher, it is ironed. Even if you do not wrinkle, wrinkles can be inconspicuous.

(7) Evaluation of Usability Shirts with 10 subjects in their body shape (2 adult male S size, 3 M size, 3 L size, 2 LL size. S, M, and size are JIS, respectively. L4107 Annex 1 Table 1 Y-type collar around 37 cm and 39 cm L and LL sizes comply with JIS L4107 Annex 1 Table 2A collar around 41 cm and 43 cm respectively, L size waist circumference is 100 cm and chest circumference 110 cm, LL size waist circumference was 108 cm, and chest circumference was 116 cm) was folded and placed in a storage container, and one day later, it was taken out from the storage container and worn. The wrinkles of the shirt in the worn state, the unevenness of the upper placket, and the curl of the collar were visually evaluated based on the following criteria. The average value of the evaluation points of each subject was rounded off to the first decimal place to obtain an evaluation result. It should be noted that the adult male S size shirt can be evaluated as an adult female L size and the adult male M size shirt as an adult female blouse LL size.
(Evaluation criteria for wrinkles)
5 points: Wrinkles are not recognized 4 points: Some wrinkles are recognized but I don't care 3 points: There are wrinkles but I can judge that I can wear them as they are 2 points: Many wrinkles are worried about wearing 1 point: Wrinkles are quite Many are difficult to wear as they are (evaluation criteria for unevenness of upper placket)
5 points: Unevenness is not recognized 4 points: Unevenness is slightly recognized but 3 points: Unevenness can be judged as wearable 2 points: When worn, the unevenness of the upper placket is anxious 1 point: The unevenness is severe and difficult to wear as it is (evaluation criteria for collar curl)
5 points: No curl is recognized 4 points: A little curl is recognized but I don't care 3 points: I can judge that I can wear it as it is 2 points: I am worried about the curl of the collar 1 point: The collar Curls are intense and difficult to wear

The storage containers used in the examples are as follows.
(Storage box A)
A regular hexagonal prismatic box (made of polyvinyl chloride, thickness 0.29 mm, internal volume 741...) Having a regular hexagonal shape with a side length of 3.75 cm and a height of 21.0 cm. 6 cm ³ ) was used. The top surface and bottom surface can be opened and closed as a plug-in lid. The dimensions of the inscribed cylinder of the regular hexagonal column are a diameter of 6.49 cm and a height of 21.0 cm (volume 694.3 cm ³ ). The filling ratio of the inscribed cylinder with respect to the regular hexagonal column was 93.6%.
(Storage box B)
A cylindrical box (made of polyethylene terephthalate, thickness 0.56 mm, internal volume 805.3 cm ³ ) having a circular shape with a diameter of 7.12 cm at the top and bottom and a height of 21.0 cm was used.
(Storage box C)
A square box-shaped box (made of polyethylene terephthalate, thickness 0.39 mm, internal volume 849.5 cm ³ ) having a square with a side length of 6.45 cm and a height of 21.0 cm is formed on the top surface and the bottom surface. Using. The top surface and bottom surface can be opened and closed as a plug-in lid. The dimensions of the inscribed cylinder of the regular square column are a diameter of 6.45 cm and a height of 21.0 cm (volume 685.8 cm ³ ). The filling ratio of the inscribed cylinder with respect to the regular quadrangular column was 80.7%.
(Storage bag D)
Cylindrical bag having notches that can be opened and closed with three sets of hook-and-loop fasteners as shown in FIGS. 5 and 6 (fabric made of cloth having a fabric thickness of 0.22 mm, bottom diameter 6.5 cm, height 23.7 cm, volume 786 cm ³ ) Was used.

[Example 1]
Loom (Toyota Loom Air Jet Loom, Model JAT-710), British cotton 50th cotton (50 single yarn, 100% cotton, sax) ) As a warp, and British-style cotton 40th cotton (40th single yarn, 100% cotton, pre-bleached yarn) as a weft, rotating at 500 rpm, warp 135 / 2.54 cm, weft 80/2. A dobby weave fabric was woven at a weave density of 54 cm.
The obtained woven fabric was desalted and scoured (90 ° C. x 1 minute with hot water and then desalted, then immersed in 1.5% by weight sodium persulfate, 2.0% by weight aqueous sodium hydroxide solution. After squeezing with mangle, it stays for 30 minutes under the condition of 90 ° C. saturated steam in the chamber, bleaching (immersion in 1.2% by mass sodium chlorite solution, squeezing with mangle, and 90 ° C. in the chamber) For 30 minutes under the condition of the saturated steam, and then washed with water (treated with water at 60 ° C. for 1 minute to remove the residual drug) and dried.
Next, after immersing the woven fabric in liquid ammonia for about 2 seconds, the weaving density (145 warps / 2.54 cm, 78 wefts) with a warp direction of 107.4% and a weft direction of 97.5% of the weaving density. /2.54 cm woven density).
Next, the fabric is subjected to a crosslinking treatment solution (76 parts by mass of water, 10 parts by mass of dimethylol dihydroxyethylene urea (solid content concentration 60 mass%) as a crosslinking agent, and 3 parts by mass of an aqueous magnesium chloride solution having a solid content concentration of 20 mass% as a catalyst. , Manufactured by DIC Corporation as a formalin catcher agent, 3 parts by mass of the product name “Finetex FC-KP”, manufactured by DIC Corporation as a softener, 3 parts by mass of the product name “Finetex PE-140-E”, and Immerse it in a padder with a product name of “AMC-800E” manufactured by Hua Chemical Co., Ltd., and pad-on ratio (weight of crosslinking treatment solution contained in the fabric / weight of the fabric before application of the crosslinking treatment solution) with a mangle. × 100) After squeezing to 65%, a crosslinking reaction was performed. The condition is that the treatment is performed for 4 minutes with a pin tenter set at 155 ° C., so that the warp direction is 106.7% and the weft direction is 97.5% of the weaving density (the warp density is 144 pieces / 2.54 cm). The width of the woven fabric was fixed so that the weft density was 78 / 2.54 cm. As a result, a finished fabric for a dress shirt was obtained.
The finished fabric (woven fabric) obtained has a finished width of 149 cm, a basis weight of 122 g / m ² , a cellulose fiber content of 100%, a weft tear strength of 800 cN, and a warp tear strength of 850 cN. Met. W & W property was 3.5 grade.
The finished fabric was cast to a predetermined size and sewn with a thread to produce a dress shirt as shown in FIGS. At this time, since the sleeve portion, the side portion under the sleeve, and the arm hole have a lot of fabric overlap, the thickness of the stitched portion was suppressed by interlock sewing. In addition, the hem part of the body is wound with seam, and the other parts are lock stitched. Moreover, the interlining was used over the full length of the upper placket.
The dress shirt obtained was folded into a cylindrical shape (bottom diameter 69 mm, height 200 cm) by folding method A, and a cylindrical storage bag D (bottom diameter 65 mm, height 237 cm, as shown in FIGS. 6 and 7). The thickness of the dough was 0.22 mm. Next, the storage bag D was put in the storage box A with the cuts on the side surfaces closed, and the storage bag D was covered.

[Example 2]
Same as the weaving machine (Toyota Automatic Loom Air Jet Loom, Model JAT-710) with British cotton 50th cotton (50 single yarn, 100% cotton, yellow (Japanese Industrial Standard yellow approximate color)) Two colors of bleached yarn are prepared as warp yarns. British style cotton 40th count (40th single yarn, 100% cotton, prebleached yarn) is used as the weft, rotation speed is 500rpm, warp is 130 / 2.54cm, weft 70 A dobby weave fabric was woven at a weave density of 2.54 cm.
The obtained woven fabric was washed and dried after immersion in liquid ammonia. The weaving density was 100.0% in the warp direction and 100.0% in the weft direction with respect to the weaving density (130 warps / 2.54 cm, 70 wefts). /2.54 cm woven density), and as a pin tenter treatment during the crosslinking reaction, the warp direction is 98.5% and the weft direction is 100.0% of the weaving density (warp density) A finished fabric for a dress shirt was obtained in the same manner as in Example 1 except that the width of the fabric was fixed so that the weft density was 70 / 2.54 cm and the weft density was 70 / 2.54 cm.
The resulting finished fabric (woven fabric) has a finished width of 150 cm, a basis weight of 98 g / m ² , a cellulose fiber content of 100%, a weft tear strength of 710 cN, and a warp tear strength of 800 cN. The lateral elongation was 1.5%. The W & W property was 3.2.
The finished fabric was cast to a predetermined size and sewn with a thread to produce a dress shirt as shown in FIGS. The sewing conditions were the same as in Example 1, but the thickness of the interlining at the upper placket and the usage range of the interlining were changed. Specifically, the interlining was applied to the range (18% of the total length of the upper placket) from the uppermost portion of the upper placket (the stitched portion of the placket and the collar base) to the lower part of the third buttonhole.
The obtained dress shirt was folded into a cylindrical shape (bottom diameter: 69 mm, height: 191 cm) by the folding method A and placed in the storage bag D. Next, the storage bag D was put in the storage box A with the cuts on the side surfaces closed, and the storage bag D was covered.

[Example 3]
British style cotton 40th (40 single yarn, 100% cotton) warp, British style 30th cotton (60 double yarn, 100% cotton) weft, 120 warps / 2.54cm, Weaving a plain weave with a weaving density of 65 wefts / 2.54 cm, and a mercerizing process just before dipping in liquid ammonia, weaving 101.7% in the warp direction and 100% in the weft direction with respect to the weaving density As a density (weaving density of 122 warps / 2.54 cm, 65 wefts / 2.54 cm), immersed in a 20% by weight aqueous sodium hydroxide solution at 20 ° C. for 10 seconds, squeezed with mangles, washed with hot water, Neutralization, washing with water and drying, followed by immersion in liquid ammonia for about 2 seconds, followed by a weaving density of 105.8% in the warp direction and 100.0% in the weft direction with respect to the weaving density ( 127 warps / 2.54c , 65 weft yarns / 2.54 cm woven density), in a crosslinking treatment solution, 60 parts by mass of water, 20 parts by mass of dimethylol dihydroxyethylene urea as a crosslinking agent, and 20% by mass of a solid content concentration as a catalyst. Magnesium aqueous solution 6 parts, Finetex FC-KP as a formalin catcher agent was changed to 6 parts by weight, and during the cross-linking reaction, the pin direction was 105.8% in the warp direction and the weft direction with respect to the weaving density. Example 1 except that the width of the fabric was fixed so that the density was 100.0% (the warp density was 127 / 2.54 cm and the weft density was 65 / 2.54 cm). And finished fabric for dress shirts.
The finished fabric (woven fabric) obtained has a finished width of 152 cm, a basis weight of 113.6 g / m ² , a cellulose fiber content of 100%, a weft tear strength of 913 cN, and a warp tear strength. Was 981 cN. The W & W property was 4.0 grade.
Using the above-mentioned finished fabric, the sewing method is the same as in Example 1 except that the skirt of the body is sewed on the hem and the main part is used for the other parts, and the thickness of the interlining is changed. A dress shirt as shown in FIG. 4 was produced.
The obtained dress shirt was folded into a cylindrical shape (circle diameter 73 mm, height 202 cm) by folding method B and stored in storage bottle B.

[Example 4]
British cotton count 60th (60th single yarn, 100% cotton, navy (Japanese industry standard dark blue approximate color)) warp, British style cotton 60th count (60th single yarn, 100% cotton) Woven plain fabrics with a weft density of 83 warps / 2.54 cm and 80 wefts / 2.54 cm, and mercerized, the warp direction is 106.0% of the weave density and the weft direction is 100.0% weaving density (88 warps / 2.54 cm, 80 wefts / 2.54 cm weaving density), the fabric was immersed in liquid ammonia for about 2 seconds, and then warp direction with respect to the weaving density Was washed and dried at a weaving density of 100.1% in the weft direction (108 warps / 2.54 cm, 80 wefts / 2.54 cm weave density), and 70 masses of water in the crosslinking treatment solution. Dimethylol dihydroxy ester as a crosslinking agent Lenurea (solid content concentration: 60% by mass) was changed to 12 parts by mass, and during the cross-linking reaction, the pintenter had a density of 127.7% in the warp direction and 100.0% in the weft direction with respect to the weaving density. As in Example 1, except that the width of the fabric was fixed (so that the warp density was 106 / 2.54 cm and the weft density was 80 / 2.54 cm), the finish for the dress shirt was completed. I got the dough.
The finished fabric (woven fabric) obtained has a finished width of 112 cm, a basis weight of 88 g / m ² , a cellulose fiber content of 100%, a weft tear strength of 1200 cN, and a warp tear strength of 1900 cN. Met. W & W property was 3.5 grade.
Using the finished fabric, a dress shirt as shown in FIGS. 3 and 4 was produced in the same manner as in Example 1 except that no interlining was used.
The obtained dress shirt was folded into a cylindrical shape (circle diameter 67 mm, height 198 cm) by the folding method B, and a cylindrical storage bag D was placed. Next, the storage bag D was stored in the storage box C in a state in which the cut of the side surface portion was closed.

[Comparative Example 1]
British cotton count 20th (20th single yarn, 100% cotton) warp, 150 denier PTT fiber (Teijin Frontier Co., Ltd., trademark SOLOTX) and 20th British cotton count (20th single yarn, cotton) 100%) two types of wefts, one PTT fiber 150 denier and one cotton No. 20 yarn were prepared repeatedly at a frequency of 67 warps / 2.54 cm, 48 wefts / 2. After weaving a plain woven fabric with a weaving density of 54 cm, dipping in liquid ammonia for about 2 seconds, the weaving density was 122.4% in the warp direction and 100.0% in the weft direction (82 warps / Washed with water at a weaving density of 2.54 cm, 48 wefts / 2.54 cm), of the crosslinking treatment liquid, 76 parts by mass of water, dimethylol dihydroxyethylene urea (solid content concentration 60% by mass) 12 masses as a crosslinking agent Part, touch 3 parts by mass of an aqueous solution of magnesium chloride having a solid content concentration of 20% by mass, manufactured by DIC Corporation as a formalin catcher agent, 0.5 parts by mass of a product name “FINETEX FC-KP”, manufactured by DIC Corporation as a softener, Product name "Finetex PE-140-E" 1 part by mass and Nikka Chemical Co., Ltd. product name "AMC-800E" 1 part by mass), weaving with a pin tenter during the crosslinking reaction The warp direction is 119.4% of the density and the weft direction is 100.0% (so that the warp density is 80 / 2.54 cm and the weft density is 48 / 2.54 cm). A finished fabric for a dress shirt was obtained in the same manner as in Example 1 except that the width of the woven fabric was fixed.
The finished fabric (woven fabric) obtained has a finished width of 123.9 cm, a basis weight of 170 g / m ² , a cellulose fiber content of 90%, a weft tear strength of 2575 cN, and a warp tear strength. Was 2933 cN. W & W property was 2.8 grade.
Using the finished fabric, a dress shirt as shown in FIGS. 3 and 4 was produced in the same manner as in Example 3 except that the thickness of the interlining was changed.
The obtained dress shirt was folded into a cylindrical shape (circle diameter 85 mm, height 200 cm) by folding method B and tried to be stored in storage box B, but storage box B was too small to be stored. .

[Comparative Example 2]
British style cotton 50th cotton (50th single yarn, 100% cotton, prebleached yarn) is used as warp, British style 40th cotton (40th single yarn, 100% cotton, prebleached yarn) is used as weft, Weaving plain woven fabric with a weaving density of 110 warps / 2.54 cm and 60 wefts / 2.54 cm, and mercerization, warp direction is 103.6% and weft direction is 100.0% The weaving density (114 warps / 2.54 cm, 60 wefts / 2.54 cm weaving density), and the cross-linking reaction was performed with a pin tenter and the warp direction was 103.6% with respect to the weaving density. Example 1 with the exception of fixing the width of the fabric so that the direction is a density of 100.0% (a warp density of 114 / 2.54 cm and a weft density of 60 / 2.54 cm). Similarly, a finished fabric for a dress shirt was obtained.
The finished fabric (woven fabric) obtained has a finished width of 148.5 cm, a basis weight of 135 g / m ² , a cellulose fiber content of 100%, a weft tear strength of 790 cN, and a warp tear strength. Was 820 cN. The W & W property was 3.2.
Using the finished fabric, a dress shirt as shown in FIGS. 3 and 4 was produced in the same manner as in Example 1 except that the thickness of the interlining was changed and the collar was changed to a button-down specification.
The resulting dress shirt was folded into a cylindrical shape (circle diameter 72 mm, height 200 cm) by folding method B and stored in storage box B.

[Comparative Example 3]
British style cotton 50th cotton (50th single yarn, 100% cotton, prebleached yarn) is used as warp, British style 40th cotton (40th single yarn, 100% cotton, prebleached yarn) is used as weft, Weaving dobby fabric with a weaving density of 120 warps / 2.54 cm and 85 wefts / 2.54 cm, and mercerization, warp direction is 104.2% and weft direction is 100.0% The weave density (125 warps / 2.54 cm, 85 wefts / 2.54 cm weave density), and the cross-linking reaction was performed with a pin tenter and the warp direction was 103.3% relative to the weave density. Example 1 except that the width of the woven fabric was fixed so that the direction was a density of 100.0% (a warp density was 124 / 2.54 cm and a weft density was 85 / 2.54 cm). Similarly, a finished fabric for a dress shirt was obtained.
The finished fabric (woven fabric) obtained has a finished width of 146.5 cm, a basis weight of 129 g / m ² , a cellulose fiber content of 100%, a weft direction tear strength of 830 cN, and a warp direction tear strength. Was 875 cN. The W & W property was 3.2.
Using the finished fabric, a dress shirt as shown in FIGS. 3 and 4 was produced in the same manner as in Example 1 except that the thickness of the interlining was changed.
The obtained dress shirt was folded into a columnar shape (circle diameter 81 mm, height 206 cm) by folding method A and stored in storage box A.

  Tables 1 and 2 collectively show the configurations of the dress shirts obtained in the examples and comparative examples. Table 3 shows the evaluation results of the dress shirt when taken out from the storage container and worn.

  As shown in Tables 1 to 3, the dress shirts of the examples can be stored in a predetermined compact storage container, wrinkles of the body cloth when worn out from the storage container, unevenness of the upper placket, The evaluation of the curl of the collar was good, and it was possible to achieve both convenience of carrying and aesthetics when worn. In Example 2, button-down was applied to the neck, and the collar of the shirt did not warp when worn, and the aesthetics were particularly good. Moreover, since the length of the back body part was only 19 mm longer than the front body part, the bulk height decreased when folded and the storage property to the storage container was excellent. Furthermore, the aesthetics when the shirt hem was worn outside the bottoms were also good.

  On the other hand, the dress shirt of Comparative Example 1 could not be stored in a predetermined storage container as a result of being unable to be folded small. Further, the dress shirt of Comparative Example 2 had no problem with respect to storage properties and the curl of the collar portion, but the unevenness of the upper placket portion was severe, and it was difficult to wear it as it was. This is presumably because the thickness of the upper placket is thick and the difference between the thickness of the body cloth and the thickness of the upper placket is large. In the dress shirt of Comparative Example 3, the appearance at the time of wearing remained low. This is considered to be due to wrinkles and distortions in the woven fabric and interlining within the storage container because the thickness of the body cloth, the thickness of the upper placket, and the difference between them were large.

  Assuming that the dress shirt is stored in a chiffon with a drawer having an inner dimension of 75 cm in width, a height of 25 cm, and a depth of 35 cm with respect to the storage of the packaged clothing product of the present invention, the state shown in FIG. When shirts are stored in a flat stack, the number of shirts that can be stored in one drawer is about 15 to 18. On the other hand, 114 shirts stored in the storage container of Example 1 can be stored (however, the number of sheets calculated in a state where the storage container stands with the regular hexagonal bottom face down). Thus, according to the packaged clothing product of the present invention, the storage space can be saved, and furthermore, all the shirts can be visually confirmed by opening the drawer. In addition, for example, if the name, size, long and short sleeves, color pattern, material, etc. of the clothing product are described in the storage container, the intended product can be immediately taken out without requiring much labor.

  The clothing product of the present invention can be used as a business shirt, a blouse, or the like.

DESCRIPTION OF SYMBOLS 10 Front body part 20 Rear body part 30 Upper front part 40 Lower front part 50 Sleeve part 60 Collar part 70 Pocket part 80 York part 100 Clothing product (dress shirt)
200 storage bag

Claims (11)

A clothing product having a front body part, a back body part, an upper front part, a lower front part, a sleeve part and a collar part,
Woven using cellulosic fibers with English cotton count of 20 to 80, the warp density is 50 to 250 / 2.54 cm, the weft density is 50 to 200 / 2.54 cm, cellulose Including a woven fabric containing 20% by mass or more of fibers as a fabric,
The thickness of the body fabric is 0.15 mm to 0.31 mm;
A clothing product, wherein the upper placket has a thickness of 0.35 mm to 0.80 mm.   The garment product according to claim 1, wherein a hem of the back body part is 5 mm to 80 mm longer than a skirt of the front body part.   The clothing product according to claim 1 or 2, wherein both the upper placket and the lower placket are back plackets.   The clothing product according to claim 3, wherein a difference between the thickness of the body cloth and the thickness of the upper placket is 0.60 mm or less.   The clothing product according to any one of claims 1 to 4, wherein the cellulosic fiber contains 20% by mass or more of cotton.   The clothing product according to any one of claims 1 to 5, wherein the cellulosic fiber is crosslinked with a crosslinking agent.   The clothing product according to any one of claims 1 to 6, which is a dress shirt, blouse, pajamas or uniform.   A packaged garment product comprising a storage container and the garment product according to any one of claims 1 to 7, which is stored in a folded state in the storage container. The storage container is a storage bag having a polygonal bottom surface portion having a circular shape or an inscribed circle, and a top surface portion and a side surface portion which may be opened,
The circle or the inscribed circle has a diameter of 60 mm to 90 mm;
The packaged clothing product according to claim 8, wherein the height of the storage bag is 190 mm to 250 mm. The storage container is a storage box having a polygonal bottom surface portion having a circular shape or an inscribed circle, and a top surface portion and a side surface portion which may be opened,
The circle or the inscribed circle has a diameter of 60 mm to 75 mm;
The packaged clothing product according to claim 8, wherein the height of the storage box is 190 mm to 220 mm. Woven using cellulosic fibers with English cotton count of 20 to 80, the warp density is 50 to 250 / 2.54 cm, the weft density is 50 to 200 / 2.54 cm, cellulose A method for producing a clothing product having a front body part, a back body part, an upper front part, a lower front part, a sleeve part and a collar part by sewing a fabric containing 20% by mass or more of fibers,
The thickness of the woven fabric is 0.15 mm to 0.31 mm,
The manufacturing method including making thickness of this upper placket part into 0.35 mm-0.80 mm.